Vehicle panel with metalized film

ABSTRACT

A vehicle panel ( 10 ) includes a core layer ( 12 ) and a layer of metalized film ( 14 ) bonded to the core layer ( 12 ). In one embodiment, the core layer ( 12 ) is made of a material with heat absorption or insulation properties. The layer of metalized film ( 14 ) is made of a material having heat reflective properties that can be bonded to the core layer ( 12 ). Alternatively, a compatible bonding agent can be applied to the core layer, the metalized film, or both. To form the vehicle panel ( 10 ), the layer metalized film ( 14 ) is positioned on one half of a mold tool and the core layer ( 12 ) is positioned on the other half of the mold tool. Heat is applied to the core layer ( 12 ) and the mold tool is closed such that the heat from the core layer ( 12 ) causes the metalized film ( 14 ) to be in a formable state and bonds to the core layer ( 12 ).

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates in general to a vehicle panel structure, and in particular to a vehicle panel structure that includes a core layer and a layer of metalized film to provide the vehicle panel structure with improved thermal properties.

2. Description of the Related Art

Typically, a vehicle panel, such as a headliner, includes an air gap between the vehicle roof and the headliner to provide a thermal barrier between the vehicle roof and the headliner. Unfortunately, one problem associated with the necessity of this air gap is that the overall distance between the vehicle roof and the headliner is increased.

SUMMARY OF THE INVENTION

The inventor of the present invention has recognized these and other problems associated with conventional vehicle panels, and have developed a vehicle panel comprising a core layer and a layer of metalized film. The layer of metalized film eliminates the need for an air gap between two layers of material, such as a vehicle roof and a headliner, thereby minimizing the thickness of the vehicle panel while improving thermal performance of the vehicle panel structure. Thus, the vehicle panel of the invention comprises a core layer, and a layer of metalized film bonded to the core layer. Preferably, the material for the core layer is compatible with the material for metalized film such that the metalized film is bonded to the core layer with the application of heat. Alternately, a bonding agent may be applied to either the core layer or the metalized film that is compatible to the materials used for the core layer and the metalized film to form the appropriate bond between the core layer and the metalized film upon the application of heat.

A method of manufacturing the vehicle panel comprises the steps of positioning the core layer on a surface of a mold half, and positioning the metalized film on the surface of the other mold half. After placing the core layer and the metalized film, heat is applied to either the core layer or the metalized film by heating the core layer or heating the mold half with the metalized film for a predetermined temperature. Then, the mold halves are closed to press the core layer against the metalized film for a predetermined period of time. As the metalized film is heated, the metalized film becomes formable and is bonded to the surface of the core layer to form the vehicle panel. The mold halves are then opened and the vehicle panel is removed.

BRIEF DESCRIPTION OF THE DRAWINGS

In the drawings:

The FIGURE shows a cross-sectional view of a vehicle panel structure including a core layer and a layer of metalized film according to an embodiment of the invention.

DESCRIPTION OF THE PREFERRED EMBODIMENT

Referring now to the FIGURE, a vehicle panel 10 is shown according to an embodiment of the invention. The vehicle panel 10 includes a core layer 12 and a layer of metalized film 14 bonded to the core layer 12. Optionally, the vehicle panel 10 may include a second layer of metalized film or suitable material (not shown), such as a fabric, bonded or otherwise attached to the opposite surface of the core layer 12.

The core layer 12 may be made of any desirable material. Preferably, the core layer 12 is comprised of any suitable material having insulating properties. For example, the core layer 12 may comprise a foam material, such as polypropylene or the like, and have a density and thickness that may vary depending on the design requirements.

The metalized film 14 may be made of any type of material that is capable of reflecting heat, such as polyethylene terepthalate (PET) or the like. Preferably, the material used for the metalized film 14 is compatible with the material used for the core layer 12 such that the metalized film 14 can form a bond with the core layer 12. One suitable material for the metalized film 14 is commercially available under the trade name METALLYTE™ MET available from ExxonMobil Chemical. The metalized film 14 contains a polymer material, such as polypropylene or the like, that is compatible with the material for the core layer 12. In addition, the metalized film 14 is coated with a metallic material, such as aluminum or the like, that has excellent heat reflection properties.

Ideally, the metalized film 14 is bonded to the outer surface of the core layer 12 that is nearest the source of heat to be reflected by the vehicle panel 10. If necessary, a second layer of metalized film 14 or other suitable material can be applied to an opposite surface of the core layer 12 in situations where the source of heat is emanating from opposite sides of the core layer 12. However, in most situations, the core layer 12 is exposed to only one heat source, and therefore only one layer of metalized film 12 is required for adequate heat reflection.

For example, the core layer 12 with metalized film 14 can be used as a headliner of a vehicle. In this example, the source of heat (indicated by the arrows in the FIGURE) would be the vehicle roof so the metalized film 14 would be applied to only one surface of the core layer 12 that is nearest the vehicle roof. It has been found that when the core layer 12 with metalized film 14 positioned nearest the vehicle roof is used as a headliner that the headliner exhibits superior heat reflection and heat absorption properties, as compared to conventional headliners that require the air gap between the headliner and the vehicle roof for insulation. Thus, the vehicle panel 10 comprising the core layer 12 with metalized film 14 eliminates the need of an air gap. As a result, the vehicle panel 10 when used as a headliner requires less real estate (i.e. has less thickness) as compared to conventional headliners with an air gap.

A method for manufacturing the vehicle panel 10 will now be described. Typically, a mold tool (not shown) includes two mold halves. It is understood that the mold halves have complimentary shapes in the shape of the vehicle panel to be formed. The core layer 12 is positioned in one mold half using conventional means. The metalized film 14 is positioned on the other mold half using conventional means, such as tenured, pinned, clamped, vacuumed, or the like, in a manner known in the art. The core layer 12 is then heated to a predetermined temperature, such as approximately 400 degrees Fahrenheit to cause the core layer 12 to be in a somewhat molten state. The mold halves are then closed together to press the core layer 12 in engagement with the metalized film 14 for a predetermined period of time, such as approximately 30 seconds. When the mold halves are pressed together, some of the heat from the core layer 12 is transferred to the metalized film 14 such that the metalized film 14 becomes formable and molded to the shape of the core layer 12. The source of heat being transferred to the metalized film 14 can be from other sources of heat, such as the mold tool itself, rather than from the core layer 12.

It should be noted that the topography of the core layer 12 and the vehicle panel 10 is non-flat. In these cases, it has been found that the metalized film 14 may become wrinkled in locations where the core layer 12 may have a non-flat topography. However, the metalized film 14 having a substantially flat surface before being placed in the mold half still provides an acceptable bond to the entire surface of the core layer 12 because the metalized film 14 is placed in the mold half with enough tolerance to substantially conform to the topography of the core layer 12 and the vehicle panel 10 being formed.

While the invention has been specifically described in connection with certain specific embodiments thereof, it is to be understood that this is by way of illustration and not of limitation, and the scope of the appended claims should be construed as broadly as the prior art will permit. 

1. A vehicle panel, comprising: a core layer, and a heat formable metalized film layer bonded to said core layer, wherein said layer of metalized film layer is formed in a non-flat topography for matching a contoured surface of an adjacent vehicle surface.
 2. The vehicle panel of claim 1, wherein said layer of metalized film is made of a material that is compatible with said core layer.
 3. The vehicle panel of claim 2, wherein said layer of metalized film comprises polyethylene terepthalate (PET).
 4. The vehicle panel of claim 1, wherein said core layer is made of an insulating material.
 5. The vehicle panel of claim 4, wherein said core layer comprises polypropylene material.
 6. The vehicle panel of claim 1, wherein said vehicle panel comprises a headliner.
 7. The vehicle panel of claim 6, wherein said layer of metalized film is positioned nearest to a vehicle roof when the vehicle panel is in use.
 8. (canceled)
 9. A vehicle panel, comprising: a core layer, and a heat formable metalized film layer bonded to said core layer, wherein said layer of metalized film is formed in a non-flat topography for matching a contoured surface of an adjacent vehicle surface substantially without an air gap therebetween.
 10. The vehicle panel of claim 9, wherein said layer of metalized film is made of a material that is compatible with said core layer.
 11. The vehicle panel of claim 10, wherein said layer of metalized film comprises polyethylene terepthalate (PET).
 12. The vehicle panel of claim 9, wherein said core layer is made of an insulating material.
 13. The vehicle panel of claim 12, wherein said core layer comprises polypropylene material.
 14. The vehicle panel of claim 9, wherein said vehicle panel comprises a headliner.
 15. The vehicle panel of claim 14, wherein said layer of metalized film is positioned facing a vehicle roof when the vehicle panel is in use.
 16. A method of manufacturing a vehicle panel having a non-flat topography, comprising the steps of: positioning a core layer on a first mold half of a mold tool; positioning a heat formable metalized film on a second mold half of the mold tool; and closing the first and second mold halves and applying heat to the core layer such that the heat from core layer is transferred to the metalized film, whereby the metalized film becomes formable and bonds to the core layer, and whereby the metalized film forms a metalized contoured panel matching an exterior surface of a vehicle.
 17. The method of claim 16, wherein the vehicle panel is attached to a vehicle surface substantially without an air gap.
 18. A vehicle roof construction comprising: a non-flat vehicle roof; a contour following headliner attached to an interior of said vehicle roof substantially without an air gap; said headliner comprising a thermoformed contour following metalized film layer facing said vehicle roof; and a core layer heat bonded to said metalized film layer during thermoforming of the headliner.
 19. The vehicle roof construction of claim 18, wherein the metalized film layer comprises: a polyethylene terepthalate (PET).
 20. The vehicle roof construction of claim 18, wherein the core layer is made of an insulating material.
 21. The vehicle roof construction of claim 18, wherein the core layer comprises a polypropylene material.
 22. The vehicle roof construction of claim 20, further comprising a second layer attached thereto or a surface opposite of said metalized film layer.
 23. The vehicle roof construction of claim 22, wherein said second layer is a fabric material. 